Model predictive direct torque control of a three-phase four-switch inverter induction motor driving system
With the development of power electronics and motor driving system, AC motor speed control or the servo system has been widely explored. Among them, the Induction Motor (IM) driving based on a three-phase six-switch inverter has become a mature technology for a wide range of applications. However, i...
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sg-ntu-dr.10356-1735632024-02-16T15:38:54Z Model predictive direct torque control of a three-phase four-switch inverter induction motor driving system Qu, Jialong Li, Kerui Yan, Shuo School of Electrical and Electronic Engineering Energy Research Institute @ NTU (ERI@N) Engineering Energy conservation Power electronics With the development of power electronics and motor driving system, AC motor speed control or the servo system has been widely explored. Among them, the Induction Motor (IM) driving based on a three-phase six-switch inverter has become a mature technology for a wide range of applications. However, in some scenarios, a certain fault-tolerant ability and further cost savings are required. Under this circumstance, the motor driving system based on the three-phase four-switch inverter is proposed. However, it has fewer voltage vectors, with unequal amplitudes, spatial asymmetry, and no zero vector, which will inevitably lead to the deterioration of the control performance. In this study, the operation of the four-switch inverter IM driving is analysed in detail. The model predictive direct torque control (MPDTC) is proposed to obtain better static and dynamic characteristics. Through the simulation and experimental studies, the control algorithm is verified to drive a 2.2 kW IM. Compared with the conventional DTC, the proposed MPDTC has a rapid dynamic response and greatly reduces the torque and flux ripple in a steady state. Published version This work was supported by RMIT Start Up Fund, CC_10215. Open access publishing facilitated by RMIT University, as part of the Wiley ‐ RMIT University agreement via the Council of Australian University Librarians. 2024-02-14T04:36:56Z 2024-02-14T04:36:56Z 2023 Journal Article Qu, J., Li, K. & Yan, S. (2023). Model predictive direct torque control of a three-phase four-switch inverter induction motor driving system. IET Smart Grid, 6(6), 585-595. https://dx.doi.org/10.1049/stg2.12131 2515-2947 https://hdl.handle.net/10356/173563 10.1049/stg2.12131 2-s2.0-85170567664 6 6 585 595 en IET Smart Grid © 2023 The Authors. IET Smart Grid published by John Wiley & Sons Ltd on behalf of The Institution of Engineering and Technology. This is an open access article under the terms of the Creative Commons Attribution‐NonCommercial‐NoDerivs License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made. application/pdf |
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Engineering Energy conservation Power electronics Qu, Jialong Li, Kerui Yan, Shuo Model predictive direct torque control of a three-phase four-switch inverter induction motor driving system |
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With the development of power electronics and motor driving system, AC motor speed control or the servo system has been widely explored. Among them, the Induction Motor (IM) driving based on a three-phase six-switch inverter has become a mature technology for a wide range of applications. However, in some scenarios, a certain fault-tolerant ability and further cost savings are required. Under this circumstance, the motor driving system based on the three-phase four-switch inverter is proposed. However, it has fewer voltage vectors, with unequal amplitudes, spatial asymmetry, and no zero vector, which will inevitably lead to the deterioration of the control performance. In this study, the operation of the four-switch inverter IM driving is analysed in detail. The model predictive direct torque control (MPDTC) is proposed to obtain better static and dynamic characteristics. Through the simulation and experimental studies, the control algorithm is verified to drive a 2.2 kW IM. Compared with the conventional DTC, the proposed MPDTC has a rapid dynamic response and greatly reduces the torque and flux ripple in a steady state. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Qu, Jialong Li, Kerui Yan, Shuo |
| format |
Article |
| author |
Qu, Jialong Li, Kerui Yan, Shuo |
| author_sort |
Qu, Jialong |
| title |
Model predictive direct torque control of a three-phase four-switch inverter induction motor driving system |
| title_short |
Model predictive direct torque control of a three-phase four-switch inverter induction motor driving system |
| title_full |
Model predictive direct torque control of a three-phase four-switch inverter induction motor driving system |
| title_fullStr |
Model predictive direct torque control of a three-phase four-switch inverter induction motor driving system |
| title_full_unstemmed |
Model predictive direct torque control of a three-phase four-switch inverter induction motor driving system |
| title_sort |
model predictive direct torque control of a three-phase four-switch inverter induction motor driving system |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/173563 |
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1794549286204080128 |